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(B) For a diatomic gas,the total heat given is $\Delta Q_{total} = \Delta Q_{AB} + \Delta Q_{BC}$.$1$. For process $AB$ (Isochoric process):$\Delta Q_

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$3.9$

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(B) For a diatomic gas,the total heat given is $\Delta Q_{total} = \Delta Q_{AB} + \Delta Q_{BC}$.$1$. For process $AB$ (Isochoric process):$\Delta Q_{AB} = n C_V \Delta T = n \left( \frac{R}{\gamma - 1} \right) \Delta T = \frac{P_f V_f - P_i V_i}{\gamma - 1}$Given $n = 1$ mole,diatomic gas $\gamma = 1.4 = 7/5$.$\Delta Q_{AB} = \frac{2 P_0 V_0 - P_0 V_0}{7/5 - 1} = \frac{P_0 V_0}{2/5} = 2.5 P_0 V_0$.$2$. For process $BC$ (Isothermal process):$\Delta Q_{BC} = W_{BC} = n R T \ln \left( \frac{V_f}{V_i} \right) = P_B V_B \ln \left( \frac{V_C}{V_B} \right)$Since $P_B V_B = 2 P_0 V_0$ and $V_C = 2 V_0, V_B = V_0$:$\Delta Q_{BC} = 2 P_0 V_0 \ln \left( \frac{2 V_0}{V_0} \right) = 2 P_0 V_0 \ln 2 = 2 P_0 V_0 (0.7) = 1.4 P_0 V_0$.Total heat $\Delta Q_{total} = 2.5 P_0 V_0 + 1.4 P_0 V_0 = 3.9 P_0 V_0$.

One mole of a diatomic ideal gas undergoes a process shown in $P-V$ diagram. The total heat given to the gas $(\ln 2 = 0.7)$ is (in $P_0 V_0$)

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